math 2 unit 1 test: transformations name: thiago goncalves version 1
1. which of the following transformations creates congruent and parallel segments between pre - image and corresponding image points?
a. translation b. reflection c. rotation d. dilation
2. which of the following transformations is best represented by circular paths from pre - image to image points?
a. translation b. reflection c. rotation d. dilation
3. given the pre - image point (4, -7) and the rule ( f(x,y) o (-y, x) ) what would be the image point?
a. (-4, -7) b. (7, 4) c. (-7, 4) d. (4, 7)
4. when reflecting, the pre - image and image points are equidistant (the same distance) to the line of reflection.
a. true b. false
5. the image is an object after a transformation, and the pre - image is the object before the transformation.
a. true b. false

Question

math 2 unit 1 test: transformations name: thiago goncalves version 1
1. which of the following transformations creates congruent and parallel segments between pre - image and corresponding image points?
a. translation  b. reflection  c. rotation  d. dilation
2. which of the following transformations is best represented by circular paths from pre - image to image points?
a. translation  b. reflection  c. rotation  d. dilation
3. given the pre - image point (4, -7) and the rule ( f(x,y) 	o (-y, x) ) what would be the image point?
a. (-4, -7)  b. (7, 4)  c. (-7, 4)  d. (4, 7)
4. when reflecting, the pre - image and image points are equidistant (the same distance) to the line of reflection.
a. true  b. false
5. the image is an object after a transformation, and the pre - image is the object before the transformation.
a. true  b. false

Accepted Answer

### Question 1
# Brief Explanations:
Translation moves a figure without changing its shape, size, or orientation, creating congruent and parallel segments between pre - image and image points. Reflection creates congruent figures but the segments between pre - image and image points are not parallel (they are symmetric with respect to the line of reflection). Rotation creates congruent figures but the segments between pre - image and image points are not parallel (they form circular arcs). Dilation changes the size of the figure, so the segments are not congruent.
# Answer:
A. translation

### Question 2
# Brief Explanations:
Rotation involves rotating a figure around a fixed point, and the path of each pre - image point to its image point is a circular arc. Translation moves a figure in a straight line. Reflection is a flip over a line, and the path is not circular. Dilation changes the size of the figure, and the path is not circular.
# Answer:
C. rotation

### Question 3
# Explanation:
## Step1: Identify the values of x and y
Given the pre - image point $(4,-7)$, so $x = 4$ and $y=-7$.
## Step2: Apply the transformation rule $f(x,y)\to(-y,x)$
Substitute $x = 4$ and $y = - 7$ into the rule. First, find $-y$: $-y=-(-7)=7$. Then, the new $x$ - coordinate is $7$ and the new $y$ - coordinate is $x = 4$? Wait, no, wait. Wait, the rule is $(x,y)\to(-y,x)$. So we take the negative of $y$ as the new $x$ - coordinate and $x$ as the new $y$ - coordinate. Wait, no, let's re - do it. If the rule is $f(x,y)\to(-y,x)$, then for $(x = 4,y=-7)$, we calculate $-y$ first: $-y=-(-7) = 7$? No, wait, no. Wait, $y=-7$, so $-y=-(-7)=7$? Wait, no, the rule is $(x,y)\to(-y,x)$. So the new $x$ - coordinate is $-y$ and the new $y$ - coordinate is $x$. So $x = 4$, $y=-7$. Then $-y=-(-7)=7$? No, wait, $y=-7$, so $-y = - ( - 7)=7$? Wait, no, that's wrong. Wait, $y=-7$, so $-y=7$? No, wait, no. Wait, the rule is $(x,y)\to(-y,x)$. So we substitute $x = 4$ and $y=-7$ into $-y$ and $x$. So $-y=-(-7)=7$? No, wait, no. Wait, $y = - 7$, so $-y=7$? Then the new $x$ is $-y = 7$? No, wait, no. Wait, the rule is $(x,y)\to(-y,x)$. So the first component of the image is $-y$ and the second component is $x$. So for $(4,-7)$, $-y=-(-7)=7$? No, wait, $y=-7$, so $-y = 7$? Then the image point is $(-y,x)=(7,4)$? Wait, no, wait, no. Wait, $y=-7$, so $-y=-(-7) = 7$? Then $x = 4$. So the image point is $(7,4)$? Wait, no, let's check again. The rule is $f(x,y)\to(-y,x)$. So $x = 4$, $y=-7$. Then $-y=-(-7)=7$, and $x = 4$. So the image point is $(7,4)$? Wait, no, option B is $(7,4)$, option C is $(-7,4)$. Wait, I think I made a mistake. Wait, $y=-7$, so $-y=-(-7)=7$? No, wait, $y=-7$, so $-y = 7$? Then the first coordinate is $-y = 7$, the second coordinate is $x = 4$. So the image point is $(7,4)$, which is option B? Wait, no, wait, let's do it again. The pre - image is $(x,y)=(4,-7)$. The transformation is $(x,y)\to(-y,x)$. So we replace $x$ with $-y$ and $y$ with $x$. So $x = 4$, $y=-7$. Then $-y=-(-7)=7$, and $x = 4$. So the image point is $(7,4)$, which is option B. Wait, but let's check the options. Option B is $(7,4)$, option C is $(-7,4)$. Wait, maybe I messed up the sign. Wait, $y=-7$, so $-y=-(-7)=7$? Yes. So the image point is $(7,4)$, so option B.
# Answer:
B. $(7, 4)$

### Question 4
# Brief Explanations:
By the definition of a reflection, the line of reflection is the perpendicular bisector of the segment joining a pre - image point and its image point. This means that the pre - image and image points are equidistant from the line of reflection.
# Answer:
A. True

### Question 5
# Brief Explanations:
In the context of transformations in geometry, the pre - image is the original figure (object before transformation) and the image is the figure after the transformation has been applied.
# Answer:
A. True

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QUESTION IMAGE

Question

Explanation:

Question 1

Step1: Identify the values of x and y

Step2: Apply the transformation rule \(f(x,y)\to(-y,x)\)

Answer:

Question 2